KR101572942B1 - Continuous annealing line of rapid cooling section - Google Patents

Abstract

The present invention is to provide a rapid cooling apparatus of a continuous annealing line, which can finely spray cooling water on a surface of a strip with uniform pressure. The present invention provides the rapid cooling apparatus of a continuous annealing line, which comprises: a plurality of supply pipes (110) supplied with cooling water; a chamber (120) installed in an upper portion of the supply pipes (110); a body (130) installed in an upper portion of the chamber (120); a spray bar (140) inserted into the inside of an insertion groove (132); a rib (150) installed in both sides of an upper portion of the body (130); and a distribution member (160) longitudinally installed in the inside of the chamber (120).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rapid cooling apparatus for continuous annealing equipment,

The present invention relates to a rapid cooling apparatus for continuous annealing equipment, and more particularly to a rapid cooling apparatus for continuous annealing equipment capable of finely spraying cooling water with a uniform pressure and also capable of controlling the spraying range by distributing cooling water according to the width of the strip. The present invention relates to a rapid cooling apparatus for a facility.

In general, Rapid Cooling Section (RCS) of continuous annealing facility performs cooling function to control strip temperature by spraying (spraying) cooling water to the surface of passing strip.

However, conventionally, since the cooling water can not be sprayed to the surface of the strip at a uniform pressure, the cooling efficiency of the strip is lowered.

In particular, since the cooling water can not be uniformly sprayed on the surface of the strip, the production quality of the strip is lowered.

In addition, conventionally, since the spraying range of the cooling water can not be adjusted according to the width of the strip, the working efficiency is limited.

In addition, conventionally, rapid cooling apparatuses of continuous annealing equipment are integrally manufactured, and maintenance and replacement work is inconvenient, which has a problem of limiting the utilization efficiency as well as the application range.

Korean Patent No. 10-0007363 (August 16, 1994) Korean Patent No. 10-0287966 (May 2, 2001) Korean Patent No. 10-0341771 (October 19, 2002) Korean Patent Publication No. 10-2013-0067953 (2013.06.25)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a rapid cooling apparatus for continuous annealing equipment capable of finely spraying cooling water on a surface of a strip at a uniform pressure.

It is an object of the present invention to provide a rapid cooling apparatus for continuous annealing equipment capable of distributing cooling water according to the width of a strip and spraying it at a constant pressure.

It is another object of the present invention to provide a rapid cooling apparatus for a continuous annealing facility in which an operator can easily remove and replace and maintain maintenance.

In order to achieve the above object, the rapid cooling apparatus (100)

A plurality of supply pipes 110 to which cooling water is supplied; A static pressure part 121 having a semicircular shape is formed on the upper part of the supply pipe 110 and a concentrated part 122 having a shape gradually narrowing toward the upper part is formed on the static pressure part 121 A chamber 120 forming an exhaust hole 123 at an upper portion of the concentrated portion 122; And a through hole 131 is formed in the center of the chamber 120 so as to penetrate through the discharge hole 123. An insertion groove 132 is formed in the upper portion of the through hole 131, A body (130) forming a compressed air spray hole (134) to penetrate through the air inlet (132); A spray bar 140 having a plurality of spray grooves 141 inserted into the insertion groove 132 so as to be arranged in a staggered manner in the longitudinal direction; A lip 150 installed on both sides of the upper portion of the body 130; And a distribution member 160 installed in the chamber 120 in the longitudinal direction to distribute cooling water supplied through the supply pipe 110 according to the width of the strip.

The insertion groove 132 is formed to have a semicircular shape, and the spray bar 140 is formed to have a semicircular shape at its lower portion so as to be inserted into the insertion groove 132, And the spray groove (141) is formed on the inclined surface.

In this case, the size of the insertion groove 132 is larger than the size of the spray bar 140.

In particular, the distribution member 160 includes a support shaft 161 installed in the chamber 120 in the longitudinal direction; And a plurality of distribution plates (162) formed at predetermined intervals in the longitudinal direction of the support shaft (161).

The present invention has the effect of maximizing the cooling efficiency of the strip by finely spraying the cooling water on the surface of the strip at a uniform pressure.

Further, the present invention has the effect of distributing cooling water according to the width of the strip and spraying cooling water at a constant pressure.

Particularly, the present invention has the effect of facilitating the maintenance and replacement work for the rapid cooling apparatus of the continuous annealing facility and improving the working efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view for showing a structure of a rapid cooling apparatus of a continuous annealing facility according to the present invention. FIG.
2 is a sectional view taken along the line AA in Fig.
3 is a reference view for showing the installation state of the rapid cooling apparatus of the continuous annealing facility of the present invention.

As described above, the construction of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view taken along the line AA in Fig. 1, and Fig. 3 is a view showing a state in which the rapid cooling apparatus of the continuous annealing apparatus according to the present invention is installed And FIG.

The present invention includes a plurality of supply pipes (110) supplied with cooling water; A static pressure part 121 having a semicircular shape is formed on the upper part of the supply pipe 110 and a concentrated part 122 having a shape gradually narrowing toward the upper part is formed on the static pressure part 121 A chamber 120 forming an exhaust hole 123 at an upper portion of the concentrated portion 122; And a through hole 131 is formed in the center of the chamber 120 so as to penetrate through the discharge hole 123. An insertion groove 132 is formed in the upper portion of the through hole 131, A body (130) forming a compressed air spray hole (134) to penetrate through the air inlet (132); A spray bar 140 having a plurality of spray grooves 141 inserted into the insertion groove 132 so as to be arranged in a staggered manner in the longitudinal direction; A lip 150 installed on both sides of the upper portion of the body 130; And a distribution member 160 installed in the longitudinal direction of the chamber 120 to distribute the cooling water supplied through the supply pipe 110 according to the width of the strip.

The supply pipe 110 is connected to a pipe (not shown) for supplying cooling water from the outside to receive cooling water.

At this time, at least one of the supply pipes 110 may be formed and an opening / closing valve may be formed at one side thereof to adjust the supply range of the cooling water according to the width of the strip.

In the present invention, the chamber 120 plays a very important role in guiding the cooling water to maintain a uniform pressure.

2, the cooling water supplied through the supply pipe 110 first flows into the static pressure portion 121, passes through the concentrated portion 122, and then flows into the discharge hole 123, So that the cooling water can be supplied while maintaining a uniform injection pressure in one direction.

In this case, the static pressure part 121 is formed to have a semicircular shape so that the cooling water can easily flow through the supply pipe 110, and the concentrated part 122 is formed to have a gradually narrowed shape toward the upper direction So that the cooling water is uniformly generated in the chamber 120, so that the same flow rate can be applied to the discharge hole 123.

3, the body 130 is connected to one side of the cooling gas supply pipe 10, and is connected to the supply pipe (not shown) by the action of a cooling gas such as nitrogen gas circulating the inside of the cooling gas supply pipe 10 110 and the chamber 120 can be always cooled to a predetermined temperature.

The supply pipe 110 is exposed to the outside of the cooling gas supply pipe 10 and the chamber 120 is located inside the cooling gas supply pipe 10, Is installed so as to be exposed to one side of the cooling gas supply pipe (10).

The insertion groove 132 is formed to have a semicircular shape. The spray bar 140 is formed to have a semi-circular shape so as to be inserted into the insertion groove 132, The inclined surface may be formed so as to be gradually inclined, and the spray groove 141 may be formed on the inclined surface.

Here, the inclined surface assists the cooling water to be injected to be concentrated to the upper middle portion of the spray bar 140.

The reason why the insertion groove 132 and the spray bar 140 are formed to have a semicircular shape is to induce the cooling water to be naturally circulated and sprayed without interference.

The size of the insertion groove 132 is larger than the size of the spray bar 140 so that the cooling water passing through the through hole 131 passes between the insertion groove 132 and the gap between the spray bar 140 .

In addition, hooks 133 are formed on both sides of the upper portion of the body 130 so as to abut the rear end of the lip 150 to secure a supporting force.

In the present invention, the compressed air injection hole 134 injects compressed air supplied from the outside, and mixes with the cooling water passing between the gap between the insertion groove 132 and the spray bar 140 to finely spray the cooling water .

Here, the spray grooves 141 may be arranged in a zigzag manner in the longitudinal direction on the upper both sides of the upper part as in the enlarged part of FIG. 2, so that the sprayed cooling water is uniformly sprayed.

The lip 150 may pass between the gap between the insertion groove 132 and the spray bar 140 to guide the cooling water to the upper portion of the spray bar 140 without being sprayed widely around the lip 150.

The distribution member 160 distributes the cooling water supplied through the supply pipe 110 according to the width of the strip.

The distribution member 160 for this purpose includes a support shaft 161 installed in the chamber 120 in the longitudinal direction; And a plurality of distribution plates 162 spaced apart from each other by a predetermined distance in the longitudinal direction of the support shaft 161.

At this time, the support shaft 161 is installed and fixed in the chamber 120 in the longitudinal direction.

Particularly, the distribution plate 162 distributes the cooling water supplied through the supply pipe 110.

1, the distribution plate 162 is formed to be spaced apart from the support shaft 161 by a predetermined distance in the longitudinal direction so as to be positioned between the supply pipes 110, So that the cooling water is not discharged to a position where there is no strip when the cooling water is supplied by opening the supply pipe 110 at a position corresponding to the width of the strip, Can be adjusted.

Here, the distribution plate 162 is preferably formed to have the same shape as the internal cross-sectional shape of the chamber 120 when viewed from the side.

3, the cooling water is mixed with the compressed air injected through the compressed air injection hole 134 while maintaining a constant pressure while passing through the chamber 120, .

Although the embodiments of the present invention have been described in detail, it is to be understood that the scope of the present invention is not limited to the disclosed embodiments. The scope of the present invention is not limited by the scope of the present invention. Do.

10: Cooling gas supply pipe
100: Rapid cooling device of continuous annealing equipment of the present invention
110: supply pipe
120: chamber 121: static pressure section
122: Concentration part 123: Exhaust hole
130: body 131: through hole
132: insertion groove 133: latching jaw
134: Compressed air injection hole
140: Spray bar 141: Spray groove
150: lip
160: distribution member 161: support shaft
162: Distribution board

Claims (4)

A plurality of supply pipes 110 to which cooling water is supplied; A static pressure part 121 is formed on the upper part of the supply pipe 110 so as to have a semicircular shape in a lower part thereof and a concentrated part 121 having a shape gradually narrowing in an upward direction toward the upper part of the static pressure part 121, (120) forming a discharge hole (123) on the central portion (122); And a through hole 131 is formed in the center of the chamber 120 so as to penetrate through the discharge hole 123. An insertion groove 132 is formed in the upper portion of the through hole 131, A body (130) forming a compressed air spray hole (134) to penetrate through the air inlet (132); A spray bar 140 having a plurality of spray grooves 141 inserted into the insertion groove 132 so as to be arranged in a staggered manner in the longitudinal direction; A lip 150 installed on both sides of the upper portion of the body 130; And a distribution member (160) disposed in the longitudinal direction of the chamber (120) for distributing the cooling water supplied through the supply pipe (110) according to the width of the strip. Device. The sprayer according to claim 1, wherein the insertion groove (132) is formed to have a semicircular shape, and the spray bar (140) is formed to have a semicircular shape at its lower portion so as to be inserted into the insertion groove (132) And the spray groove (141) is formed on the inclined surface so that the inclined surface gradually rises and slopes toward the upper middle portion. 2. The rapid cooling apparatus for continuous annealing equipment according to claim 1, wherein a size of the insertion groove (132) is larger than a size of the spray bar (140). The apparatus according to claim 1, wherein the distribution member (160) comprises: a support shaft (161) installed in the chamber (120) in the longitudinal direction; And a plurality of distribution plates (162) formed to be spaced apart from each other by a predetermined distance in the longitudinal direction of the support shaft (161).

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